Handheld LiDAR scanners and airborne LiDAR are both important components of modern optoelectronic technology. They play crucial roles in different fields and environments.
The characteristics of handheld LiDAR scanner include portability, rapid and efficient operation, and high-precision data acquisition. Specific application scenarios include indoor and outdoor 3D modeling, building footprint measurements, and tunnel measu
LiDAR is a high-tech sensor that measures distance and direction by emitting and receiving laser beams. This type of device is commonly used in autonomous vehicles, drones, and other advanced technological fields.
The ability of solid-state lidar to reduce costs may be attributed to advantages such as simplified structure, absence of mechanical moving parts, easy calibration, mature production, and technological advancements.
In the world of optics, lasers have revolutionized countless industries, from medicine to manufacturing. Central to their utility is a property known as coherence. But what exactly is coherence, and why is it crucial for the functionality of laser beams?
In the realm of navigation systems, two prominent technologies often come into play: inertial navigation and integrated navigation. While both aim to determine the position and orientation of objects, they differ in their approach and capabilities.
LiDAR and laser scanners may seem synonymous, there are critical distinctions between the two technologies. In this blog post, we’ll delve into the dissimilarities, applications, and advantages of LiDAR and laser scanners.
